KR20130114505A - Glow plug and electric thermostat with the same - Google Patents

Abstract

A glow plug is disclosed. The disclosed glow plug is iii) a hollow plug housing mounted insulated from the plug mounting portion, ii) a middle shaft fixed in an insulated state at one end of the plug housing and receiving power from the outside, and iii) one side in the middle shaft. A heating unit that is connected to an end thereof, grounded at the other end of the plug housing, and generates heat by a potential difference, and iii) a connecting unit that insulates the plug mounting portion from the middle shaft and is coupled to the plug mounting portion, and electrically connects the middle shaft and the plug housing. It may include.

Description

Glow plugs and electronic thermostats including them {GLOW PLUG AND ELECTRIC THERMOSTAT WITH THE SAME}

Embodiments of the present invention relate to an electronic thermostat of a vehicle engine cooling system, and more particularly, to a glow plug that enables the heat generation temperature of an electronic thermostat to reach a target temperature quickly.

In general, the automotive thermostat is installed between the engine and the radiator, and automatically opens and closes according to the temperature change of the coolant, and serves to maintain the coolant at an appropriate temperature by adjusting the flow rate to the engine.

Conventional automotive thermostats were mostly mechanical thermostats having a structure in which the expansion force of the wax, which expands according to the temperature of the coolant, is transmitted to this piston to cause the opening and closing displacement of the valve.

However, this mechanical thermostat operates according to the opening and closing temperature set at the prescribed temperature of the coolant, that is, simply opening and closing the valve only at a predetermined temperature. However, there is a limit to actively coping with changes in the vehicle's driving environment or other conditions.

At present, the electronic thermostat of the variable control method for maintaining the coolant temperature of the engine in an optimal state while supplementing the disadvantages of the mechanical thermostat as described above is a trend.

The electronic thermostat controls the coolant temperature of the engine according to the driving conditions such as the load condition of the vehicle, so that the engine can be optimally cooled at all times, and the fuel efficiency and exhaust gas reduction effects can be expected compared to the mechanical thermostat. have.

As an example, the electronic thermostat accommodates wax, embeds a heater such as a film resistor type, supplies heat to the heater, generates heat, expands the wax by the heat of the heater, and expands the piston by the expansion force. It has a structure to operate the valve by pushing it.

In the case of the conventional electronic thermostat using a film resistance type heater or other heaters as described above, it takes about 50 to 70 seconds to reach the target temperature of 300 ~ 350 ℃.

Therefore, according to the prior art, since it takes a considerable time to raise the heating temperature of the heater to the target temperature, there is a problem in that the temperature of the cooling water cannot be controlled in real time, and there is also a problem that it is difficult to maximize the fuel efficiency improvement effect of the vehicle.

Embodiments of the present invention can be employed as a heater for generating heat in the electronic thermostat, to provide a glow plug that can be mounted to the plug mounting portion of the non-conductive material.

In addition, embodiments of the present invention can minimize the time required to increase the heating temperature of the heater to the target temperature, and can improve the control response to control the temperature of the coolant in real time according to the driving conditions of the vehicle, We want to provide an electronic thermostat that can maximize the fuel efficiency of the vehicle.

The glow plug according to the embodiment of the present invention includes: i) a hollow plug housing mounted in an insulated state in the plug mounting portion, and ii) a central shaft fixed in an insulated state at one end of the plug housing and receiving power from the outside. And, iii) a heating unit connected to the middle shaft, grounded at the other end of the plug housing, and generating heat by a potential difference, and iii) insulated the plug mounting portion and the middle shaft, and are coupled to the plug mounting portion, the middle shaft and the plug. It may include a connecting unit for electrically connecting the housing.

In addition, in the glow plug according to the embodiment of the present invention, the connecting unit is coupled to the plug mounting portion, and a (+) (-) terminal member is integrally provided with a connector, and is pressed into the connector and the (+) A first terminal connecting member electrically connected to the terminal member and coupled to the intermediate shaft; a first end connecting member pressed against the connector separately from the first terminal connecting member and electrically connected to the (-) terminal member; It may include a second terminal connecting member coupled to.

Further, in the glow plug according to an embodiment of the present invention, the heating unit has a heating tube coupled to the other end of the plug housing, one end is connected to the middle shaft in the heating tube and the heating tube The other one end may include a coil portion that is grounded.

And, the glow plug according to the embodiment of the present invention is fixed to a predetermined plug mounting portion, i) a hollow plug housing mounted to the plug mounting portion in an insulated state from the plug mounting portion, ii) the plug housing and A middle shaft fixed to one end of the plug housing in an insulated state and receiving power from the outside; iii) a heating tube coupled to the other end of the plug housing; and iii) one side of the heating shaft inside the heating tube. An end is connected, the other end of the coil portion is grounded to the heating tube, ⅴ) Connector that is insulated from the plug mounting portion and the central shaft and coupled to the plug mounting portion, the (+) (-) terminal member integrally provided And (iii) a first terminal connecting member press-fitted into the connector, electrically connected to the (+) terminal member, and coupled to the middle shaft; A second terminal connecting member may be pressed into the connector separately from the first terminal connecting member, electrically connected to the (-) terminal member, and coupled to one end of the plug housing.

In the glow plug according to an embodiment of the present invention, the plug housing may be coupled to the second terminal connecting member at a predetermined distance from an inner circumferential surface of the plug mounting portion.

In addition, in the glow plug according to an embodiment of the present invention, the plug mounting portion may be formed with a space for spaced apart from the plug housing.

In addition, in the glow plug according to the embodiment of the present invention, one end of the plug housing may be coupled to the middle shaft through a sealing member.

In the glow plug according to an embodiment of the present invention, the middle shaft and the second terminal connecting member may be insulated from each other through an insulating washer.

In addition, in the glow plug according to the embodiment of the present invention, the first terminal connection member may be integrally provided with a first elastic deformation part for elastically pressing the intermediate shaft.

In addition, in the glow plug according to the embodiment of the present invention, the second terminal connection member may be integrally provided with a second elastic deformation part for elastically pressing one end of the plug housing.

In addition, in the glow plug according to the embodiment of the present invention, the first terminal connection member may be formed in a cylindrical shape, and a first cut line may be elongated along a length direction to exert an elastic force with respect to the connector. .

Further, in the glow plug according to the embodiment of the present invention, the second terminal connection member is formed in a cylindrical shape, the second incision line may be formed long along the longitudinal direction to exert an elastic force with respect to the connector. .

Further, in the glow plug according to the embodiment of the present invention, the first terminal connection member may be formed with a first connection groove connected to the (+) terminal member.

Further, in the glow plug according to an embodiment of the present invention, the second terminal connection member may be formed with a second connection groove connected to the (-) terminal member.

In addition, the glow plug according to an embodiment of the present invention may further include an insulating member filled in the space between the heating tube and the coil portion.

In addition, in the glow plug according to an embodiment of the present invention, the insulating member may be made of magnesium oxide (MgO) powder.

Further, in the glow plug according to the embodiment of the present invention, the coil unit may include a heating coil having one end connected to the heating tube and the other end connected to the middle shaft.

In the glow plug according to an embodiment of the present invention, the coil unit may include a heat generating coil connected to the heat generating tube and dissipating heat, and a temperature control coil connected to the middle shaft and controlling a heat generating temperature of the heat generating coil. It may also include.

In addition, the thermostat according to the embodiment of the present invention is for controlling the coolant temperature of the vehicle engine, iii) a valve housing connected to a plurality of flow paths through which the coolant of the engine flows, and ii) installed inside the valve housing. And a wax case having a wax accommodating space, iii) a glow plug inserted into the wax filled in the wax accommodating space, and generating heat by receiving an external power source, and iii) a volume expansion of the wax by heat of the glow plug. And a valve assembly for opening and closing the flow path by the movement of the drive body, wherein the glow plug may be electrically connected to the power supply in an insulated state from the valve housing.

In addition, in the thermostat according to an embodiment of the present invention, the glow plug is a hollow plug housing which is mounted in an insulated state mounted in a plug mounting unit integrally provided in the valve housing, and at one end of the plug housing. A middle shaft fixed in an insulated state and receiving power from the outside, a heating unit connected to the middle shaft, grounded at the other end of the plug housing, and generated by a potential difference, and insulated the plug mounting portion and the middle shaft from the plug mounting portion And a connecting unit coupled to the central shaft and the plug housing.

In addition, in the thermostat according to the embodiment of the present invention, the connecting unit is coupled to the plug mounting portion and a (+) (-) terminal member is integrally provided with a connector, the connector is pressed into the (+) A first terminal connecting member electrically connected to the terminal member and coupled to the intermediate shaft; a first end connecting member pressed against the connector separately from the first terminal connecting member and electrically connected to the (-) terminal member; It may include a second terminal connecting member coupled to.

According to the glow plug according to the embodiment of the present invention, the plug mounting portion is insulated and configured to electrically connect the middle shaft and the heating tube through the first and second terminal connection members of the connecting unit.

Therefore, in the embodiment of the present invention, unlike the general glow plug which connects the positive power source to the plug body and grounds the negative power source to the plug mounting part of the conductive material, the mounting of the glow plug is also performed on the plug mounting part of the non-conductive material. As a result, constraints on the material of the plug mounting portion can be removed.

 According to the electronic thermostat according to the embodiment of the present invention, since the glow plug is applied as a heater that generates heat, it is possible to minimize the time required to raise the heater to a target temperature.

Therefore, in the embodiment of the present invention, the temperature of the coolant can be controlled in real time according to the driving conditions of the vehicle, and the fuel efficiency of the vehicle can be improved to the maximum by controlling the temperature of the coolant in real time.

These drawings are for the purpose of describing an embodiment of the present invention, and therefore the technical idea of the present invention should not be construed as being limited to the accompanying drawings.
1 is a cross-sectional view illustrating an electronic thermostat to which a glow plug is applied according to an embodiment of the present invention.
2 is a perspective view illustrating a glow plug applied to an electronic thermostat according to an exemplary embodiment of the present invention.
3 is a cross-sectional view illustrating a glow plug applied to an electronic thermostat according to an exemplary embodiment of the present invention.
Figure 4 is a schematic cross-sectional view showing a heating unit applied to the glow plug of the electronic thermostat according to an embodiment of the present invention.
5 is an exploded perspective view illustrating a connecting unit applied to a glow plug of an electronic thermostat according to an exemplary embodiment of the present invention.
6 is a cross-sectional view illustrating a connector of a connecting unit applied to a glow plug of an electronic thermostat according to an exemplary embodiment of the present invention.
7 is a cross-sectional view illustrating a first terminal connecting member of a connecting unit applied to a glow plug of an electronic thermostat according to an exemplary embodiment of the present invention.
8 is a cross-sectional view illustrating a second terminal connecting member of a connecting unit applied to a glow plug of an electronic thermostat according to an exemplary embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

In the following detailed description, the names of the components are denoted by the first, second, third, etc. in order to distinguish the names of the components from each other in the same relation, and are not necessarily limited to the order in the following description.

1 is a cross-sectional view illustrating an electronic thermostat to which a glow plug is applied according to an embodiment of the present invention.

Referring to FIG. 1, a glow plug 100 according to an exemplary embodiment of the present invention may be used to preheat air to help ignition of fuel in a typical diesel engine or the like.

However, the glow plug 100 according to an embodiment of the present invention is fixed to a predetermined plug mounting portion 1 and applied to a heater that generates heat in accordance with an electrical signal and provides the heat around the plug mounting portion 1. Can be.

For example, the glow plug 100 according to the embodiment of the present invention may be applied to a heater of the electronic thermostat 200 for maintaining an optimum temperature of the coolant of the engine.

Here, the electronic thermostat 200 is configured to heat the heater by receiving power, expand the wax as the heat of the heater, and to operate the valve by pushing the driving body such as a piston.

On the other hand, the embodiment of the present invention, unlike the general glow plug that connects the (+) power to the plug body, and grounds the (-) power to the plug mounting portion 1 of the conductive material, the plug mounting portion 1 of the non-conductive material It also provides a glow plug 100 that can be mounted.

That is, the general glow plug should be a material capable of electric conduction of the plug mounting portion 1 in order to ground (-) power, so the use of the plug mounting portion 1 depends on the material.

2 is a perspective view illustrating a glow plug applied to an electronic thermostat according to an exemplary embodiment of the present invention, and FIG. 3 is a cross-sectional view illustrating a glow plug applied to an electronic thermostat according to an exemplary embodiment of the present invention.

1 to 3, the glow plug 100 according to the embodiment of the present invention basically includes a plug housing 10, a middle shaft 20, a heating unit 30, and a connecting unit 60. .

In the embodiment of the present invention, the plug housing 10 is for mounting the components of the glow plug 100, it may be mounted to the plug mounting portion 1 for fixing the entire glow plug 100.

For example, the plug mounting part 1 may be integrally provided in the valve housing 110 of various materials connected to the plurality of flow paths through which the engine coolant flows, and further, may be made of a non-conductive material.

The plug housing 10 is formed in the form of a hollow case with the upper and lower ends open when referring to the drawings, and is mounted inside the hollow of the plug mounting part 1 in an insulated state from the plug mounting part 1, It may be provided as a ground main body to which a negative power is applied.

In this case, the outer surface of the plug housing 10 is formed with a screw portion 11 that can be screwed to a predetermined element, the upper end portion is formed with a hexagonal head portion 13 bar, in the art The plug housing 10 of this structure is also referred to as a "vault".

Here, a space portion 5 may be formed on an inner circumferential surface of the plug mounting portion 1 to insulate the inner circumferential surface and the plug housing 10.

When the plug mounting portion 1 is made of metal, the spaced apart space portion 5 may be spaced apart from the inner circumferential surface of the plug mounting portion 1 and the plug housing 10 at regular intervals while the inner circumferential surface of the plug mounting portion 1 is cut. Will be

In addition, when the plug mounting part 1 is made of plastic, the separation space 5 may separate the inner circumferential surface of the plug mounting part 1 from the plug housing 10 at a predetermined interval by injection molding.

The middle shaft 20 is a core to which (+) power is applied from the outside, and is insulated from the plug housing 10 at one end (upper end when referring to the drawing) of the plug housing 10. Can be fixed.

At this time, the middle shaft 20 may be coupled to one end of the plug housing 10 through the sealing member 21. For example, the sealing member 21 may be an O-ring.

In the embodiment of the present invention, the heating unit 30 is to generate heat by the potential difference by receiving power through the middle shaft 20 and the plug housing 10, as shown in Figure 4 the heating tube 40 And a coil unit 50.

The heating tube 40 has a cylindrical shape with an upper end open and a lower end closed when referring to the drawing, and an upper end thereof is inserted into the other end of the plug housing 10 (lower end when referring to the drawing). And may be coupled to the other end of the plug housing 10.

Here, the heat generating tube 40 may be coupled to the other end of the plug housing 10 by fit fitting, and may be joined to the other end of the plug housing 10 by welding or the like.

The lower end of the middle shaft 20 may be inserted into the upper opening of the heating tube 40 while being insulated from the heating tube 40, and the lower portion of the heating tube 40 may be swaging. It can be formed into a curved surface through the molding.

The coil unit 50 generates heat by a potential difference of power applied from the outside, and is disposed inside the heat generating tube 40, and one end is connected to the lower end of the middle shaft 20, and the heat generating tube 40. The other end is grounded at the bottom of the

The coil unit 50 is connected to the lower end portion of the heat generating tube 40 and dissipates heat, as shown in FIG. 4A, and is connected to the heat generating coil 51 and the central shaft 20. It may include a temperature control coil 53 is connected to the lower portion of the control panel for controlling the heating temperature of the heating coil (51).

 The heating coil 51 may be fixed to the inner peripheral surface of the lower end of the heating tube 40 by laser welding, the temperature control coil 53 may be fixed to the lower portion of the middle shaft 20 by caulking or laser welding. .

In the above, the temperature control coil 53 controls the temperature rise according to the change in the intrinsic resistance according to the temperature rise of the heating coil 51 to maintain a constant heating temperature of the heating coil 51.

Here, the heating coil 51 and the temperature control coil 53 are integrally connected to each other, the heating coil 51 is made of a material having a large electrical resistance, the temperature control coil 53 is a heating coil 51 It may be made of a material having a lower electrical resistance than).

As an alternative, the coil unit 50 may be composed of only a heating coil 51 that generates heat by a power source applied from the outside, as shown in FIG.

In this case, one end of the heating coil 51 may be coupled to the inner peripheral surface of the lower end of the heating tube 40 by laser welding, and the other end of the heating coil 51 is caulked or laser welded to the lower end of the middle shaft 20. Can be fixed.

Meanwhile, the insulating member 55 may be filled in the space between the heating tube 40 and the coil unit 50 in the inner space of the heating tube 40.

For example, the insulating member 55 may be magnesium oxide (MgO) powder. The magnesium oxide powder maintains insulation of the heating tube 40 and the coil unit 50 as an insulator, prevents the flow of the coil unit 50, and is generated in the heating coil 51 of the coil unit 50. A function of transferring heat to the heating tube 40 is performed.

In the embodiment of the present invention, the connecting unit 60 is for electrically connecting the central shaft 20 and the plug housing 10 as mentioned above, and insulates the plug mounting portion 1 and the central shaft 20. The plug mounting portion 1 can be configured.

5 is an exploded perspective view illustrating a connecting unit applied to a glow plug of an electronic thermostat according to an exemplary embodiment of the present invention.

1 to 5, the connecting unit 60 according to an embodiment of the present invention includes a connector 70, a first terminal connecting member 80, and a second terminal connecting member 90. .

In the embodiment of the present invention, the connector 70 is inserted into the plug mounting portion 1 at the upper end of the plug mounting portion 1, insulates the plug mounting portion 1 and the middle shaft 20 and the plug mounting portion 1 ) May be combined.

6 is a cross-sectional view illustrating a connector of a connecting unit applied to a glow plug of an electronic thermostat according to an exemplary embodiment of the present invention.

1 to 6, the connector 70 according to the embodiment of the present invention is made of a plastic material, which is an insulating material, and includes a first part 71 substantially inserted into the plug mounting part 1, and And a second portion 72 integrally formed with the first portion 71 in a direction perpendicular to the first portion 71.

Here, the second part 72 is provided with (+) (-) terminal members 73 and 74 integrally, respectively, and the connector 70 may be injection molded to these terminal members 73 and 74. .

7 is a cross-sectional view illustrating a first terminal connecting member of a connecting unit applied to a glow plug of an electronic thermostat according to an exemplary embodiment of the present invention.

1 to 7, the first terminal connecting member 80 according to an embodiment of the present invention is electrically connected to the central shaft 20 and the (+) terminal member 73, the connector 70 The first portion 71 may be pressed into the uppermost side.

In addition, the first terminal connecting member 80 may have a cylindrical shape having a hollow, made of a conductive material, and an upper end portion of the middle shaft 20 may be inserted into and coupled to the hollow.

When the first terminal connecting member 80 is pressed into the first portion 71 of the connector 70, the first terminal connecting member 80 exerts an elastic force on the first portion 71 and adheres to the inner circumferential surface of the first portion 71. Can be. To this end, the first incision line 81 is formed in the first terminal connection member 80 along the length direction from the upper end to the lower end.

In addition, the first terminal connection member 80 is integrally provided with a plurality of first elastic deformation parts 83 for elastically pressing the upper end portion of the middle shaft 20.

The first elastic deformation portion 83 is a portion of the first terminal connecting member 80 is cut off, and forms a wave of a predetermined shape, the upper end of the middle shaft 20 on the first terminal connecting member 80 When the part is inserted, it may be elastically deformed and press the central shaft 20.

In addition, the first terminal connecting member 80 is formed with a first connecting groove 85 connected to the (+) terminal member 73 of the connector 70 mentioned above.

That is, when the first terminal connecting member 80 is pressed into the first portion 71 of the connector 70, the (+) terminal member 73 is coupled to the first connecting groove 85 and the first terminal. It may be electrically connected to the connecting member 80.

8 is a cross-sectional view illustrating a second terminal connecting member of a connecting unit applied to a glow plug of an electronic thermostat according to an exemplary embodiment of the present invention.

1 to 8, the second terminal connecting member 90 according to the embodiment of the present invention is electrically connected to the plug housing 10 and the (-) terminal member 74, and the first terminal. Apart from the connecting member 80, the first member 71 may be pressed into the first portion 71 of the connector 70.

The second terminal connecting member 90 has a cylindrical shape with a hollow, is made of a conductive material, one end (upper end when referring to the drawing) of the plug housing 10 can be inserted into the hollow.

Here, the middle shaft 20 and the second terminal connecting member 90 coupled with the first terminal connecting member 80 may be insulated from each other through the insulating washer 99.

In addition, the plug housing 10 as described above may be spaced apart from the inner peripheral surface of the plug mounting portion 1 by the spaced space portion 5 of the plug mounting portion 1 as described above. ) May be combined.

Meanwhile, when the second terminal connecting member 90 is pressed into the first portion 71 of the connector 70, the second terminal connecting member 90 exerts an elastic force with respect to the first portion 71 and the inner circumferential surface of the first portion 71. It can be in close contact. To this end, the second terminal connection member 90 is formed with a second cut line 91 long in the longitudinal direction from the upper end to the lower end.

In addition, the second terminal connection member 90 is integrally provided with a plurality of second elastic deformation parts 93 for elastically pressing one end of the plug housing 10.

The second elastic deformable portion 93 is a portion of the second terminal connecting member 90 is cut out to form a wave of a predetermined shape, the second terminal connecting member 90 of the plug housing 10 When the one end is inserted, the plug housing 10 may be pressed while being elastically deformed.

In addition, the second terminal connecting member 90 is formed with a second connecting groove 95 which is connected to the (-) terminal member 74 of the connector 70 mentioned above.

That is, when the second terminal connecting member 90 is pressed into the first portion 71 of the connector 70, the (-) terminal member 74 is coupled to the second connecting groove 95 and the second terminal. It may be electrically connected to the connecting member 90.

The glow plug 100 according to the embodiment of the present invention as described above is configured to be insulated from the plug mounting part 1 and through the first and second terminal connection members 80 of the connecting unit 60. The middle shaft 20 and the heating tube 40 may be electrically connected.

Therefore, in the embodiment of the present invention, unlike the general glow plug that connects the positive power source to the plug body and grounds the negative power source to the plug mounting part 1 of the conductive material, the plug mounting part 1 of the non-conductive material Since the glow plug 100 can be mounted, the constraint on the material of the plug mounting part 1 can be eliminated.

Hereinafter, the configuration of the thermostat 200 to which the glow plug 100 according to the embodiment of the present invention configured as described above may be applied will be described in detail with reference to FIG. 1.

Referring to FIG. 1, the electronic thermostat 200 according to an embodiment of the present invention is for controlling the coolant temperature of an automobile engine. The electronic thermostat 200 is configured to generate a heater by supplying power and expand wax as heat of the piston, The valve can be operated by pushing a driving body such as

The electronic thermostat 200 according to the embodiment of the present invention has a structure capable of rapidly raising the heater to a target temperature by employing the glow plug 100 as described above as a heater for generating heat.

To this end, the electronic thermostat 200 according to the embodiment of the present invention basically includes a valve housing 110, a wax case 130, a glow plug 100, a driving body 150, and a valve assembly as described above. And 170.

In the embodiment of the present invention, the valve housing 110 is a portion connected to a plurality of flow paths (not shown) through which the coolant of the automobile engine flows.

For example, the valve housing 110 may include a radiator side flow path for cooling water to circulate through the radiator, a bypass flow path for allowing the coolant to circulate directly to the water pump side of the engine without circulating the radiator, and the coolant flows into the engine. It may be connected to the water pump side flow path and the like of the inlet.

The valve housing 110 is integrally formed with a plug mounting portion 1 on which the glow plug 100 according to the embodiment of the present invention is mounted as a heater for generating heat by receiving power.

Here, the valve housing 110 may be formed of a conductive material together with the plug mounting part 1, or may be formed of a non-conductive material.

In the embodiment of the present invention, the wax case 130 is inserted into the plug mounting portion 1 in the valve housing 110, it may be coupled to the plug housing 10 of the glow plug 100.

In this case, the wax case 130 may be made of, for example, a metal material having excellent heat transfer. The wax case 130 is inserted into the lower end of the plug mounting part 1 while being insulated from the plug mounting part 1, and the plug housing 10. It can be screwed with the screw 11 of the).

The wax case 130 has a wax accommodating space for filling the wax 131 therein.

The wax 131 is made of a conventional thermal expansion material in which the volume is expanded while being in a solid state and converted into a liquid state when heat is applied.

The heat generating tube 40 of the glow plug 100 is inserted into the wax receiving space of the wax case 130, and provides heat to the wax 131 of the wax receiving space through the heat generating tube 40.

To this end, the through-hole 133 is formed in the wax case 130 so that the heating tube 40 can be inserted into the wax receiving space.

Here, when the wax case 130 is inserted into the lower end of the plug mounting portion 1 and screwed to the threaded portion 11 of the plug housing 10, the heating tube 40 is a through-hole 133 Can be inserted into the wax receiving space.

In the embodiment of the present invention, the glow plug 100 is a heating tube 40 is inserted into the wax receiving space of the wax case 130, receives the external power to generate heat through the heating tube 40 It is provided as a heater.

Here, the glow plug 100 is assembled to the plug mounting portion 1 in an insulated state from the plug mounting portion 1 of the valve housing 110, and through the connecting unit 60, the middle shaft 20 and the plug housing ( 10) can be electrically connected.

The glow plug 100 may be electronically controlled by the control of an external controller such as an ECU (Electronic Control Unit).

Since the glow plug 100 according to the embodiment of the present invention has the configuration as described above, the description of the configuration and the assembly structure will be omitted below.

In the embodiment of the present invention, the driving body 150 may be provided as a piston moving in the vertical direction in accordance with the volume expansion of the wax 131 by the heat of the glow plug 100.

The driving member 150 may be disposed and moved inside the cylindrical element guide 151 coupled to the lower end (refer to the drawing) of the wax case 130.

In addition, a rubber moving body 153 may be disposed in the element guide 151 and an upper portion of the driving body 150, and a transfer liquid 155 may be filled in an upper portion of the rubber moving body 153. The diaphragm 157 may be provided between the top surface of the liquid 155 and the wax 131.

The space in which the delivery liquid 155 is filled in the element guide 151 may be formed to include an inclined surface whose diameter gradually decreases from the top to the bottom where the diaphragm 157 is installed.

By forming in this way, the pressure of the delivery liquid 155 according to the deformation of the diaphragm 157 can be concentrated on the rubber moving body 153, and with the force, the rubber moving body 153 is again driven by the lower driving body 150. Will be pressed.

Therefore, such a structure can accurately control the flow of the cooling water because the expansion pressure can be transmitted to the driving body 150 without loss of the expansion pressure of the wax 131.

In the embodiment of the present invention, the valve assembly 170 is for selectively opening and closing the flow path (not shown) in which the engine coolant flows by the movement of the drive body 150.

The valve assembly 170 includes a main valve 181, an elastic member 185, and a bypass valve 191.

The main valve 181 is an oil through which engine coolant flows due to the movement of the driving body 150, and functions to open and close a radiator-side flow path (not shown).

Here, the radiator side flow path is a flow path for allowing the coolant flowing out of the engine (not shown) to flow into the engine by circulating the radiator (not shown).

The elastic member 185 is disposed on the lower surface of the main valve 181, and performs a function of elastically supporting the main valve 181 in the radiator side flow path.

Therefore, if no force is applied from the outside, the main valve 181 closes the radiator side flow path by the elastic force of the elastic member 185.

The bypass valve 191 opens and closes a bypass flow path (not shown) that does not circulate the radiator while interlocking with the main valve 181.

In the above, the bypass flow passage is a passage for allowing the coolant flowing out of the engine to flow directly to the water pump side of the engine without passing through the radiator.

The bypass valve 191 is disposed under the driving body 150 and may move by the pressure of the driving body 150.

On the other hand, the main valve 181 and the bypass valve 191 according to an embodiment of the present invention may be integrally connected through the frame 193 (commonly known as "valve guide" in the art), In this case, the bypass valve 191 and the main valve 181 are moved together by the pressure of the driving body 150.

On the other hand, the electronic thermostat 200 according to an embodiment of the present invention made of the above configuration may be installed on the inlet side of the engine into which the coolant flows.

However, in the present invention, the electronic thermostat 200 is not necessarily installed at the inlet side of the engine into which the coolant flows, but may be installed at the outlet side of the engine from which the coolant flows out of the engine.

Hereinafter will be described the operation of the electronic thermostat 200 according to an embodiment of the present invention configured as described above.

First, when the coolant of the engine is maintained at the set temperature, the main valve 181 is closing the radiator side flow path by the elastic member 185, and the bypass valve 191 is the main valve 181 and the frame 193. The bypass flow path is opened by being connected integrally through).

In this case, the coolant discharged from the engine flows directly into the engine through the water pump side flow passage through the bypass flow passage without passing through the radiator.

In this situation, when the temperature of the cooling water rises by the operation of the engine and exceeds the set temperature, the ECU instructs the operation of the glow plug 100 to open the main valve 181.

Accordingly, when external power is applied to the coil unit 50 through the connecting unit 60 of the glow plug 100, the heating coil 51 of the coil unit 50 quickly rises to a target temperature. .

Therefore, in the embodiment of the present invention, as the heating coil 51 of the coil unit 50 generates heat, the wax 131 expands in volume, and the diaphragm 157 abuts against the volume expands in the wax 131. By deformation.

Then, the pressure according to the deformation of the diaphragm 157 is transmitted to the driving body 150 through the transfer liquid 155 and the rubber moving body 153 in order. At this time, the driving body 150 moves downward to apply pressure to the bypass valve 191, thereby moving the bypass valve 191 downward.

Thus, as the bypass valve 191 moves downward, the bypass valve 191 blocks the bypass flow path.

In addition, the main valve 181 integrally connected to the frame 193 together with the bypass valve 191 also moves downward to open the radiator side flow path.

In this case, after the coolant discharged from the engine circulates the radiator, the coolant is moved to the water pump side flow path through the radiator side flow path, and flows into the engine.

On the other hand, when the temperature of the cooling water is lowered below the set temperature, the ECU grasps this and instructs to stop the operation of the glow plug 100.

Accordingly, the heating coil 51 of the coil unit 50 stops heating, the expanded wax 131 shrinks, and the driving body 150 moves upward.

In this case, since the pressure for the driving body 150 to press the bypass valve 191 is eliminated, the main valve 181 is raised by the elastic force of the elastic member 185 to close the radiator side flow path, and together with the bypass valve 191 also rises to open the bypass flow path.

According to the electronic thermostat 200 according to the embodiment of the present invention as described above, by controlling the thermostat 200 in the ECU electronically it is possible to maintain a constant temperature of the cooling water to a set temperature.

Furthermore, in the embodiment of the present invention, by applying the glow plug 100 as a heater for generating heat, the target temperature can be quickly reached, so that the temperature of the cooling water can be controlled quickly and accurately.

Comparing the results to the experiment, in the prior art applying a film resistance type heater, it takes about 50 to 70 seconds to reach the target temperature of 300 ~ 350 ℃.

However, in the embodiment of the present invention in which the glow plug 100 is applied as a heater, it can be seen that the time taken to reach the target temperature of 350 ° C. is less than 30 seconds, which is remarkably improved compared to the prior art.

In addition, in the embodiment of the present invention, by applying the glow plug 100 to the electronic thermostat 200, it is possible to minimize the time required to rise to the target temperature, the heater through PWM (Pulse Width Modulation) control by the ECU Electronic control of the amount of heat generated can diversify the characteristics of the cooling system.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And it goes without saying that the invention belongs to the scope of the invention.

1 ... plug compartment 5 ... spacing
10 ... plug housing 11 ... threaded section
13 ... head 20.
21 ... sealing member 30 ... heating unit
40 ... heating tube 50 ... coil part
51 ... heating coil 53 ... thermostatic coil
55 ... Insulation member 60 ... Connecting unit
70 ... connector 71 ... first part
72 ... 2nd part 73 ... (+) terminal member
74 ... (-) terminal member 80 ... 1st terminal connection member
81 ... first incision 83 ... first elastic deformation
85 ... 1st connection groove 90 ... 2nd terminal connection member
91 ... second incision 93 ... second elastic deformation
95 ... 2nd groove 99 ... Insulation washer
110 ... valve housing 130 ... wax case
131 ... wax 133 ... through hole
150 ... drive 151 ... element guide
153 ... rubber moving object 155 ... delivery liquid
157 ... diaphragm 170 ... valve assembly
181 ... main valve 185 ... elastic member
191 ... bypass valve 193 ... frame

Claims (19)

A hollow plug housing mounted insulated from the plug mounting portion;
A central shaft fixed in an insulated state to one end of the plug housing and receiving power from the outside;
A heating unit connected to the middle shaft and grounded at the other end of the plug housing and generating heat by a potential difference; And
A connecting unit insulated from the plug mounting portion and the middle shaft and coupled to the plug mounting portion, and electrically connecting the middle shaft and the plug housing.
Glow plug comprising a. The method according to claim 1,
The connecting unit,
A connector coupled to the plug mounting portion and having a (+) (-) terminal member integrally provided thereon;
A first terminal connection member press-fitted into the connector, electrically connected to the (+) terminal member, and coupled to the intermediate shaft;
A second terminal connection member press-fitted to the connector separately from the first terminal connection member, electrically connected to the (-) terminal member, and coupled to one end of the plug housing;
Glow plug comprising a. The method according to claim 1,
The heating unit,
A heating tube coupled to the other end of the plug housing;
One end of the coil is connected to the middle shaft inside the heating tube, and the other end of the coil is grounded to the heating tube.
Glow plug comprising a. A glow plug fixed to a predetermined plug mounting portion,
A hollow plug housing mounted to the plug mounting portion in an insulated state from the plug mounting portion;
A central shaft fixed to one end of the plug housing in an insulated state from the plug housing and receiving power from the outside;
A heating tube coupled to the other end of the plug housing;
A coil part of which one end is connected to the middle shaft in the heating tube and the other end of the heating tube is grounded;
A connector insulated from the plug mounting portion and the middle shaft and coupled to the plug mounting portion, the connector having an integral (+) (-) terminal member;
A first terminal connection member press-fitted into the connector, electrically connected to the (+) terminal member, and coupled to the middle shaft; And
A second terminal connection member press-fitted to the connector separately from the first terminal connection member, electrically connected to the (-) terminal member, and coupled to one end of the plug housing;
Glow plug comprising a. 5. The method of claim 4,
The plug housing,
And a glow plug coupled to the second terminal connecting member at a predetermined distance from an inner circumferential surface of the plug mounting portion. 6. The method of claim 5,
The glow plug is formed in the plug mounting portion spaced apart spaced apart from the plug housing. 5. The method of claim 4,
One end of the plug housing is coupled to the glow shaft through a sealing member. 5. The method of claim 4,
The glow plug and the second terminal connecting member is insulated from each other through an insulating washer. 5. The method of claim 4,
And a first plug having a first elastic deformation part integrally provided to the first terminal connecting member to elastically press the middle shaft. 10. The method of claim 9,
And a second elastic deformation part integrally provided at the second terminal connection member to elastically press one end of the plug housing. 5. The method of claim 4,
The first terminal connecting member,
The glow plug is formed in a cylindrical shape, the first cut line is formed long along the longitudinal direction to exert an elastic force with respect to the connector. 12. The method of claim 11,
The second terminal connecting member,
The glow plug is formed in a cylindrical shape, the second incision is formed long along the longitudinal direction to exert an elastic force with respect to the connector. 5. The method of claim 4,
And a first plug in which the first terminal connecting member is connected to the (+) terminal member. The method of claim 13,
And a second connection groove formed in the second terminal connection member, the second connection groove being connected to the (-) terminal member. 5. The method of claim 4,
Wherein the coil portion includes:
One end is connected to the heating tube, the other end is connected to the heating shaft coil
Glow plug comprising a. 5. The method of claim 4,
Wherein the coil portion includes:
A heating coil connected to the heating tube and dissipating heat;
A temperature control coil connected to the heating coil and the middle shaft to control a heating temperature of the heating coil;
Glow plug comprising a. Electronic thermostat for controlling the coolant temperature of the car engine,
A valve housing connected to a plurality of flow paths through which the coolant of the engine flows;
A wax case installed inside the valve housing and having a wax receiving space;
A glow plug inserted into the wax filled in the wax receiving space and generating heat by receiving an external power;
A driving body moving in accordance with the volume expansion of the wax by the heat of the glow plug; And
Valve assembly for opening and closing the flow path by the movement of the drive body
Including;
The glow plug is electrically connected to the power source insulated from the valve housing. The method of claim 17,
The glow plug,
A hollow plug housing mounted in an insulated state in a plug mounting unit integrally provided in the valve housing;
A middle shaft fixed in an insulated state at one end of the plug housing and receiving power from the outside;
A heating unit connected to the middle shaft and grounded at the other end of the plug housing and generating heat by a potential difference;
A connecting unit insulated from the plug mounting portion and the middle shaft and coupled to the plug mounting portion, and electrically connecting the middle shaft and the plug housing.
Electronic thermostat comprising a. 19. The method of claim 18,
The connecting unit,
A connector coupled to the plug mounting portion and having a (+) (-) terminal member integrally provided thereon;
A first terminal connection member press-fitted into the connector, electrically connected to the (+) terminal member, and coupled to the intermediate shaft;
A second terminal connection member press-fitted to the connector separately from the first terminal connection member, electrically connected to the (-) terminal member, and coupled to one end of the plug housing;
Electronic thermostat comprising a.

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